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Lattice stabilization and strain homogenization in Sn-Pb bottom subcells enable stable all-perovskite tandems solar cells

Author

Listed:
  • Yang Bai

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Yuanyuan Meng

    (Chinese Academy of Sciences)

  • Ming Yang

    (Chinese Academy of Sciences)

  • Ruijia Tian

    (Chinese Academy of Sciences)

  • Jingnan Wang

    (Chinese Academy of Sciences)

  • Boxin Jiao

    (Tsinghua University)

  • Haibin Pan

    (Chinese Academy of Sciences)

  • Jiangwei Gao

    (Chinese Academy of Sciences)

  • Yaohua Wang

    (Chinese Academy of Sciences)

  • Kexuan Sun

    (Chinese Academy of Sciences)

  • Shujing Zhou

    (Chinese Academy of Sciences)

  • Xiaoyi Lu

    (Chinese Academy of Sciences)

  • Zhenhua Song

    (Chinese Academy of Sciences)

  • Chang Liu

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Ziyi Ge

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

Abstract

All-perovskite tandem solar cells (PTSCs) offer a promising approach to surpass the Shockley-Queisser (SQ) limit, driven by efficiently reducing thermalization and transmission losses. However, the efficiency and stability of the narrow-bandgap (NBG) subcells, which are essential for PTSC performance, remain severely constrained by challenges such as lattice instability, strain accumulation and halide migration under illumination. This study introduces a rigid sulfonate-based molecule, sodium naphthalene-1,3,6-trisulfonate (NTS), into tin-lead (Sn-Pb) perovskites, where it strengthens the Sn-I bond through Sn-trisulfonate coordination and reduces light-induced dynamic lattice distortions via the rigid NTS backbone. These molecular interactions alleviate strain heterogeneity within the lattice and homogenize the Sn-Pb compositional gradient, thereby enhancing the structural integrity and long-term stability of Sn-Pb perovskites under operational conditions. As a result, Sn-Pb single-junction perovskite solar cells (PSCs) achieve a power conversion efficiency (PCE) of 23.2%. When integrated into a tandem configuration, the device attains an impressive PCE of 29.6% (certified PCE of 29.2%, one of the highest certified efficiencies to date), with 93.1% of the initial efficiency retained after 700 h of continuous operation. By stabilizing the lattice structure, this work lays a solid foundation for achieving both high efficiency and long-term durability in next-generation perovskite photovoltaics.

Suggested Citation

  • Yang Bai & Yuanyuan Meng & Ming Yang & Ruijia Tian & Jingnan Wang & Boxin Jiao & Haibin Pan & Jiangwei Gao & Yaohua Wang & Kexuan Sun & Shujing Zhou & Xiaoyi Lu & Zhenhua Song & Chang Liu & Ziyi Ge, 2025. "Lattice stabilization and strain homogenization in Sn-Pb bottom subcells enable stable all-perovskite tandems solar cells," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62661-6
    DOI: 10.1038/s41467-025-62661-6
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